library(lme4)
library(texreg)
library(effectsize)
library(stm)
library(quanteda)
library(tm)
library(geometry)
library(igraph)
library(Rtsne)
library(rsvd)
library(Amelia)
library(car)

setwd("/Users/amandaclayton/Dropbox/Gender and climate change/Submissions/APSR/R&R 2/Resubmission/Accepted Files!/Replication files and code")
##FIGURE 1 

#left panel: AmericasBarometer
DiffsGDP<-read.csv('LADiffsStand.csv', stringsAsFactors=FALSE)

cor.test(DiffsGDP$StandDiff, log(DiffsGDP$GDPPC)) #corr at 0.7

plot(DiffsGDP $StandDiff ~log(DiffsGDP $GDPPC), xlim=c(6,12), xlab="GDP per capita (logged)", ylab="Gender Gap (Female Mean - Male Mean)", main="Gender Gap in Perceived Seriousness of Climate Change \n by Level of Economic Development (AmericasBarometer)")
abline(h=0, col="black")
with(DiffsGDP, text(StandDiff ~log(GDPPC), labels = Country, pos = 4, cex=1))
text(7, 0.3, "R = 0.70, p < 0.001", cex=1, col="black")


##right panel: Pew data 
CountryLevel<-read.csv('CountryLevelPew.csv')

cor.test(log(CountryLevel$GDPPC), CountryLevel$Diffs) #cor = 0.61

plot(CountryLevel $Diffs ~log(CountryLevel $GDPPC), xlim=c(6,12), xlab="GDP per capita (logged)", ylab="Gender Gap (Female Mean - Male Mean)", main="Gender Gap in Perceived Seriousness of Climate Change \n by Level of Economic Development (Pew Data)")
abline(h=0, col="black")
with(CountryLevel, text(Diffs ~log(GDPPC), labels = Country, pos = 4, cex=1))
text(6.8, 0.45, "R = 0.61, p < 0.001", cex=1, col="black")

##Figure 2

#left panel, AmericasBarometer 

Americas<-read.csv("AmericasLevels.csv")

par(mfrow=c(1,1))

plot(Americas $Women ~log(Americas $GDPPC), xlim=c(6.5,12), ylim=c(-0.9, 0.3), xlab="GDP per capita (logged)", ylab="Climate Attitudes (Standardized", col="grey21", main="Average Perceived Seriousness of Climate Change \n by Level of Economic Development (AmericasBarometer)")
abline(h=0, col="grey")
with(Americas, text(Women ~log(GDPPC), labels = Country, pos = 4, cex=1))
abline(lm(Americas $Women ~log(Americas $GDPPC)), col='grey21', lty=2)

points(Americas $Men ~log(Americas $GDPPC), xlab="GDP per capita (logged)", ylab="Climate Attitudes", col="black", pch=17)
with(Americas, text(Men ~log(GDPPC), labels = Country, pos = 4, cex=1))
abline(lm(Americas $Men ~log(Americas $GDPPC)), col='black')

legend(6.5, -0.75, legend=c("Women", "Men"), col=c("grey21", "black"), lty=c(2, 1), cex=1)

#right panel, Pew data

CountryLevel<-read.csv("PewLevels.csv")

plot(CountryLevel $LevelMen ~log(CountryLevel $GDPPC), col="black", xlim=c(6,12), ylim=c(-0.7, 0.7), xlab="GDP per capita (logged)", ylab="Climate Attitudes (Standardized)", main="Average Perceived Seriousness of Climate Change \n by Level of Economic Development (Pew)", cex.main=1, , pch=17)
abline(h=0, col="grey")
abline(lm(CountryLevel $LevelMen ~log(CountryLevel $GDPPC)), col="black")
with(CountryLevel, text(LevelMen ~log(GDPPC), labels = Country, pos = 4, cex=1))

points(CountryLevel $LevelWomen ~log(CountryLevel $GDPPC), col="grey21")
abline(lm(CountryLevel $LevelWomen ~log(CountryLevel $GDPPC)), col="grey21", lty=2)
with(CountryLevel, text(LevelWomen ~log(GDPPC), labels = Country, pos = 4, cex=1))
legend(5.9, -0.55, legend=c("Women", "Men"), col=c("grey21", "black"), lty=c(2, 1), cex=1)


#Table 1 (models 1 - 3): Americas Barometer 

lapop<-read.csv( "LAPOPData2.csv")

mixed1<-lmer(ClimStand ~ female + log(GDPPC) + (log(GDPPC) *female) + (1 +log(GDPPC) | country), data= lapop) #
summary(mixed1) #interaction term high significant (p<0.001)

mixed2<-lmer(ClimStand ~ female + ideo + log(GDPPC) + (log(GDPPC) *female) + (1 +log(GDPPC) | country), data= lapop) #

mixed3<-lmer(ClimStand ~ female + HHIncome + Edu + ideo + log(GDPPC) + (log(GDPPC) *female) + (1 +log(GDPPC) | country), data= lapop) #

screenreg(list(mixed1, mixed2, mixed3), digits=3) 

texreg(list(mixed1, mixed2, mixed3), digits=3)

pew<-read.csv('PewData.csv')

#Table 1 (models 4 - 6): Pew

mixedP1<-lmer(ClimStand ~ Female + log(GDPPC) + (log(GDPPC) *Female) + (1 +log(GDPPC) | Country), data= pew) #
summary(mixedP1) #interaction term high significant (p<0.001)

mixedP2<-lmer(ClimStand ~ Female + Ideo + log(GDPPC) + (log(GDPPC) *Female) + (1 +log(GDPPC) | Country), data= pew) #
summary(mixedP2) #i 
screenreg(list(mixedP2))

mixedP3<-lmer(ClimStand ~ Female + Edu + StandIncome + Ideo + log(GDPPC) + (log(GDPPC) *Female) + (1 +log(GDPPC) | Country), data= pew) #
summary(mixedP3)

screenreg(list(mixedP1, mixedP2, mixedP3), digits=3)
texreg(list(mixedP1, mixedP2, mixedP3), digits=3)


##Figure 4
#Netquest gaps and levels 

all_country<-read.csv("NetquestCountry.csv")

#Left panel
plot(log(all_country$GDP), all_country$gaps_stan_across, xlim=c(8.75,11.2), xlab="GDP per capita (logged)", ylab="Gender Gap (Women Mean - Men Mean)")

text(log(all_country$GDP),all_country$gaps_stan_across, labels= all_country$country, cex=1, font=2, adj=0)

#Right panel

plot(all_country$men_levels ~log(all_country $GDPPC), col="black", xlim=c(8,12.5), ylim=c(-1.2, 1), xlab="GDP per capita (logged)", ylab="Climate Attitudes (Standardized)", pch=17)
abline(h=0, col="grey")
abline(lm(all_country $men_levels ~log(all_country $GDPPC)), col="black")
with(all_country, text(men_levels ~log(GDPPC), labels = country, pos = 4, cex=1))

points(all_country $women_levels ~log(all_country $GDPPC), col="grey21")
abline(lm(all_country $women_levels ~log(all_country $GDPPC)), col="grey21", lty=2)
with(all_country, text(women_levels ~log(GDPPC), labels = country, pos = 4, cex=1))
legend(11, 1, legend=c("Women", "Men"), col=c("grey21", "black"), lty=c(2, 1), cex=1)


##Figure 5 
#Cross-national STMs, including associated regressions 

stm_data<-read.csv('CrossNationalSTM.csv')

#add original language 
stm_data$language<-recode(stm_data$country, " c('USA', 'UK') = 'English'; c('Argentina', 'Chile', 'Colombia', 'Mexico', 'Peru', 'Spain') = 'Spanish'; c('Brazil', 'Portugal') = 'Portuguese' ")

processed <- textProcessor(stm_data $response, metadata = stm_data, customstopwords = 
                             c("i", "me", "my" , "myself", "we", "our", "ours", 
      "ourselves", "you" ,       "your"     ,  "yours"  ,    "yourself" , 
      "yourselves", "he", "him" ,"his", "himself" ,"she", "her", "hers",     
      "herself" ,   "it",      "its"     ,   "itself"    ,
      "they" ,      "them"  ,     "their"  ,    "theirs"  ,  
      "themselves" ,"what"   ,    "which" ,     "who"       ,
      "whom"     ,  "this"    ,   "that"   ,    "these"     ,
      "those"   ,   "am"       ,  "is"     ,    "are"       ,
      "was"  ,      "were"      , "be" ,        "been"      ,
      "being"  ,    "have"  ,     "has"  ,      "had"       ,
      "having" ,    "do"    ,     "does" ,      "did"       ,
      "doing"   ,   "would" ,     "should"   ,  "could"     ,
      "ought" ,     "i'm"    ,    "you're" ,    "he's"    ,  
      "she's"   ,   "it's"    ,   "we're"    ,  "they're"   ,
      "i've" ,   "you've" ,    "we've"    ,  "they've"   ,
      "i'd"   ,     "you'd"  , "he'd"   ,    "she'd"     ,
      "we'd"  ,     "they'd"   ,  "i'll"    ,   "you'll" ,    
      "he'll"  ,    "she'll"    , "we'll"  ,    "they'll"  ,  
      "isn't"   ,   "aren't" ,    "wasn't"  ,   "weren't"  , 
      "hasn't" ,    "haven't" ,   "hadn't" ,    "doesn't"  , 
      "didn't"   ,  
      "shan't"  ,   "shouldn't" , "can't"    ,  "cannot"   , 
      "couldn't" ,  "mustn't",    "let's"     , "that's" ,
      "who's"   ,   "what's"   ,  "here's"  ,   "there's"  , 
      "when's" ,    "where's",    "why's"  ,    "how's"     ,
      "a"      ,    "an"   ,      "the"    ,    "and"  ,     
      "but"    ,    "if"    ,     "or"     ,    "because",   
      "as"     ,    "until"  ,    "while"  ,    "of"   ,     
      "at"     ,    "by"     ,    "for"     ,   "with"  ,    
      "about"  ,    "against" ,   "between"  ,  "into",      
      "through" ,   "during" ,    "before" ,    "after",     
      "above"    ,  "below"   ,   "to"     ,    "from"  ,    
      "up"     ,    "down"   ,    "in"     ,    "out"    ,   
      "on"      ,  "off"    ,    "over"     ,  "under"    , 
      "again"  ,    "further"  ,  "then"    ,   "once"    ,  
      "here"    ,   "there", "other"  ,"some"   ,    "such" ,
      "nor"    ,    "not"     ,   "only"  ,  "own"   ,     "same"   ,  
      "so"    ,     "than"  ,"too"    ,    "very", "like"), removepunctuation=TRUE, stem=TRUE)
      
out <- prepDocuments(processed$documents, processed$vocab, processed$meta)
docs <- out$documents
vocab <- out$vocab
meta <-out$meta


STM.covariates <- stm(documents = out$documents, vocab = out$vocab,
                 K = 4, prevalence = ~meta$lnGDPPC,
                 max.em.its = 100, data = out$meta,
                 init.type = "Spectral")

labelTopics(STM.covariates, topics=NULL, n = 6, frexweight = 0.75)

#Figure 5a
plot(STM.covariates, type = "summary", xlim = c(0, 1.3), n=5, cex=0.5, topic.names=c("Topic 4 - Changing products:", "Topic 2 - Taxes:", "Topic 1 - No harm:", "Topic 3 - Ecosystems:"))


#regression tables associated with cross-national STM results

prep <- estimateEffect(1:4~ lnGDPPC, STM.covariates,  meta = out$meta, uncertainty = "Global")
summary(prep, topics = 1)
summary(prep, topics = 2)
summary(prep, topics = 3)
summary(prep, topics = 4) 


##Figure 5b

plot(prep, covariate = "lnGDPPC", topics = c(3, 2, 4, 1),
     model = STM.covariates, method = "difference", cov.value1 = "1",
     cov.value2 = "0",
     xlab = "Low Income ... High Income",
     main = "Marginal Effect of log(GDPpc)" , xlim=c(-0.12, 0.12),
     labeltype = "custom", custom.labels = c("Topic 1: No harm", "Topic 2: Taxes", "Topic 3: \n Ecosystems", "Topic 4: Changing products"))


##Figure 6
#USA STMs; including associated regression tables and representative responses

data<-read.csv("USAstm.csv", header=TRUE)

processed <- textProcessor(data$harmpersonal, metadata = data, customstopwords = 
                             c("i", "me", "my" , "myself", "we", "our", "ours", 
      "ourselves", "you" ,       "your"     ,  "yours"  ,    "yourself" , 
      "yourselves", "he", "him" ,"his", "himself" ,"she", "her", "hers",     
      "herself" ,   "it",      "its"     ,   "itself"    ,
      "they" ,      "them"  ,     "their"  ,    "theirs"  ,  
      "themselves" ,"what"   ,    "which" ,     "who"       ,
      "whom"     ,  "this"    ,   "that"   ,    "these"     ,
      "those"   ,   "am"       ,  "is"     ,    "are"       ,
      "was"  ,      "were"      , "be" ,        "been"      ,
      "being"  ,    "have"  ,     "has"  ,      "had"       ,
      "having" ,    "do"    ,     "does" ,      "did"       ,
      "doing"   ,   "would" ,     "should"   ,  "could"     ,
      "ought" ,     "i'm"    ,    "you're" ,    "he's"    ,  
      "she's"   ,   "it's"    ,   "we're"    ,  "they're"   ,
      "i've" ,   "you've" ,    "we've"    ,  "they've"   ,
      "i'd"   ,     "you'd"  , "he'd"   ,    "she'd"     ,
      "we'd"  ,     "they'd"   ,  "i'll"    ,   "you'll" ,    
      "he'll"  ,    "she'll"    , "we'll"  ,    "they'll"  ,  
      "isn't"   ,   "aren't" ,    "wasn't"  ,   "weren't"  , 
      "hasn't" ,    "haven't" ,   "hadn't" ,    "doesn't"  , 
      "didn't"   ,  
      "shan't"  ,   "shouldn't" , "can't"    ,  "cannot"   , 
      "couldn't" ,  "mustn't",    "let's"     , "that's" ,
      "who's"   ,   "what's"   ,  "here's"  ,   "there's"  , 
      "when's" ,    "where's",    "why's"  ,    "how's"     ,
      "a"      ,    "an"   ,      "the"    ,    "and"  ,     
      "but"    ,    "if"    ,     "or"     ,    "because",   
      "as"     ,    "until"  ,    "while"  ,    "of"   ,     
      "at"     ,    "by"     ,    "for"     ,   "with"  ,    
      "about"  ,    "against" ,   "between"  ,  "into",      
      "through" ,   "during" ,    "before" ,    "after",     
      "above"    ,  "below"   ,   "to"     ,    "from"  ,    
      "up"     ,    "down"   ,    "in"     ,    "out"    ,   
      "on"      ,  "off"    ,    "over"     ,  "under"    , 
      "again"  ,    "further"  ,  "then"    ,   "once"    ,  
      "here"    ,   "there", "other"  ,"some"   ,    "such" ,
      "nor"    ,    "not"     ,   "only"  ,  "own"   ,     "same"   ,  
      "so"    ,     "than"  ,"too"    ,    "very", "like"), removepunctuation=TRUE, stem=TRUE)
out <- prepDocuments(processed$documents, processed$vocab, processed$meta)
docs <- out$documents
vocab <- out$vocab
meta <-out$meta


STM.covariates <- stm(documents = out$documents, vocab = out$vocab,
                K = 6, prevalence = ~meta$female + meta$edu + meta$hhincome + meta$pid1,
                max.em.its = 100, data = out$meta,
               init.type = "Spectral")

labelTopics(STM.covariates, topics=NULL, n = 6, frexweight = 0.75)

#Figure 6a
plot(STM.covariates, type = "summary", xlim = c(0, 0.8), n=5, topic.names=c("Topic 1 - No harm:", "Topic 5 - Random effects:", "Topic 6 - Weather patterns:", "Topic 2 -  Rising costs:", "Topic 3 - Actions:",  "Topic 4 - Knock on effects:"))


meta$harmpersonal<-as.character(meta$harmpersonal)

#Representative responses for the "rising costs" topic
thoughts4 <- findThoughts(STM.covariates, texts = meta$harmpersonal, n = 5,
                          topics = 4)$docs[[1]]

thoughts4

prep <- estimateEffect(1:6~ female + pid1 + hhincome + edu, STM.covariates,  meta = out$meta, uncertainty = "Global")
summary(prep, topics = 1)
summary(prep, topics = 2)
summary(prep, topics = 3)
summary(prep, topics = 4)
summary(prep, topics = 5)
summary(prep, topics = 6)

#Figure 6b

plot(prep, covariate = "female", topics = c(1, 4, 5, 3, 6, 2),
     model = STM.covariates, method = "difference", cov.value1 = "1",
     cov.value2 = "0",
     xlab = "Male ... Female",
     main = "Marginal Effect of Gender", xlim = c(-0.3, 0.3) ,
     labeltype = "custom", custom.labels = c("Topic 1: No harm", "Topic 2: Rising costs", "Topic 3: Actions", "Topic 4: Knock on effects", 
                                          "Topic 5: Random effects", "Topic 6: Weather patterns"))

##Figure 7
##Netquest women's rights correlations 

all_country<-read.csv("NetquestWomensRights.csv")

#women's rights for men
cor.test(log(all_country$GDP), all_country$wr_corrM,) #corr = 0.865, p =0.001
plot(log(all_country$GDP), all_country$wr_corrM, xlim=c(8.75,11.2), xlab="GDP per capita (logged)", ylab="Correlation between Support for Women's Rights and Climate Concern" )
text(log(all_country$GDP),all_country$wr_corrM, labels=all_country$country, cex=0.9, font=2, adj=0)


